PRIMARY RECOVERY OBJECTIVE

Deep Heat Recovery

Many industrial facilities discharge flue gas at temperatures between 120°C and 180°C. While substantial thermal energy remains available, conventional metal systems often cannot operate reliably below the acid dew point due to severe corrosion.
Fluoroplastic steel economizers enable deeper heat recovery while maintaining long-term operational reliability.

    Key Outcomes
  • ● Recover More Thermal Energy
  • ● Reduce Exhaust Heat Loss
  • ● Improve Energy Efficiency
  • ● Lower Operating Costs
HOW IT WORKS

Process Flow Diagram

WHY FLUOROPLASTIC STEEL

Built for Corrosive Flue Gas Environments

  • Acid Dew-Point Protection

    Reliable operation below conventional temperature limits.

  • Corrosion Resistance

    Resists acidic condensate and sulfur-containing flue gas.

  • Deep Heat Recovery

    Enable lower exhaust temperatures safely.

  • Long Lifecycle Operation

    Reduced maintenance and replacement frequency.

PRODUCT FEATURES

Fluoroplastic Steel Economizer Design

  • ● Composite Fluoroplastic-Steel Structure
  • ● Corrosion-Resistant Heat Transfer Surface
  • ● Optimized Gas Flow Design
  • ● Low Pressure Drop Configuration
  • ● Custom Engineering Design
  • ● Long-Term Stable Operation
INDUSTRY VALUE

Economic Benefits

  • Shorter Payback Period

    Recover additional thermal energy from existing operations.

  • Reduced Utility Consumption

    Lower energy costs through heat recovery.

  • Better Lifecycle Economics

    Reduce maintenance and replacement costs.

Global Turnkey Waste Heat Recovery Solutions

Integrated engineering, manufacturing, installation, and commissioning for global low-temperature air preheating and thermal recovery projects.

Enginering   •   Manufecturing   •   Intlatic   •   Commstning

Need Reliable Low-Temperature Air Preheating Solutions?

Discuss your operating conditions and thermal recovery requirementswith our engineering team.

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